About 67& of the energy in glucose is converted to ATP. The rest is lost as heat.
Glucose is converted into glycogen, a complex carbohydrate, for storage in the liver and muscles. Glycogen serves as a readily available energy source that can be broken down back into glucose when the body needs a quick burst of energy.
Excess glucose in the body is stored in the liver and muscles as glycogen. Once these glycogen stores are full, any additional glucose is converted into fat and stored in adipose tissue for long-term energy storage.
No, not all of the energy released by the oxidation of glucose is converted and stored in the form of ATP. Some of the energy is lost as heat during the process of cellular respiration. This heat is a byproduct of the metabolic reactions that break down glucose.
Plants convert unused glucose into starch.
Glucose is used by the body as a primary source of energy. Red blood cells and neurones rely entirely on glucose for energy. Excess amounts of glucose in the body is converted to glucogon or fat and stored for later use.
Glucose is converted into glycogen, a complex carbohydrate, for storage in the liver and muscles. Glycogen serves as a readily available energy source that can be broken down back into glucose when the body needs a quick burst of energy.
Glucose is stored in the liver and muscles in the form of glycogen. When blood sugar levels are high, excess glucose is converted to glycogen for storage. This stored glycogen can be broken down back into glucose when needed for energy.
Excess glucose in the body is stored in the liver and muscles as glycogen. Once these glycogen stores are full, any additional glucose is converted into fat and stored in adipose tissue for long-term energy storage.
No, not all of the energy released by the oxidation of glucose is converted and stored in the form of ATP. Some of the energy is lost as heat during the process of cellular respiration. This heat is a byproduct of the metabolic reactions that break down glucose.
During Celluar Respiration.-YourWelcome (:
Producers, such as plants, derive energy from sunlight through the process of photosynthesis. This energy is converted into chemical energy stored in molecules such as glucose.
Plants convert unused glucose into starch.
Glycogen meets the long-term needs of energy. This is due to the fact that readily available glucose gets stored in the liver as glycogen. When blood glucose levels fall this glycogen is then converted back into glucose for energy requirements.
Glucose is used by the body as a primary source of energy. Red blood cells and neurones rely entirely on glucose for energy. Excess amounts of glucose in the body is converted to glucogon or fat and stored for later use.
Glucose is the preferred energy source for the human body because it is easily broken down and converted into energy, providing a quick and efficient source of fuel for cells to function properly. Additionally, glucose can be stored in the body for later use, making it a reliable and readily available source of energy.
Electromagnetic energy from the sun is captured by pigments like chlorophyll in plant cells during the process of photosynthesis. This energy is then used to convert carbon dioxide and water into glucose through a series of chemical reactions in the chloroplasts. The glucose produced serves as a source of energy for the plant's growth and other metabolic processes.
Energy transformation in photosynthesis is the process in which light energy is converted into chemical energy stored in glucose molecules. This occurs in the chloroplasts of plant cells, where chlorophyll absorbs light energy to drive the synthesis of glucose from carbon dioxide and water. The chemical energy stored in glucose can then be used by the plant for growth and metabolism.